The technology that enables virtual computers to run on a computer is called virtual machine technology.
Using virtual machine technology, for example, multiple computers can be virtually operated on a single physical computer.
Alternatively, a computer with a different architecture than a physical computer can be emulated.
Similar to virtual machines, it is also possible to realize virtual intelligence on top of actual intelligence. We call this virtual intelligence.
For example, when imagining a conversation between multiple people, or when playing the role of another person, humans are demonstrating the skill of virtual intelligence.
Conversational AI also possesses the skill of virtual intelligence. When generating dialogue between two people, or when instructing and making a character respond, it is clear that current artificial intelligence possesses a high level of virtual intelligence skill.
Intelligence Orchestration
In computer systems, system orchestration can be achieved by using virtual machines.
System orchestration enables the on-demand construction and execution of distributed cooperative systems, which are realized by combining numerous computers with various specifications and functions.
This allows for flexible changes to the configuration of distributed cooperative systems, making improvements and feature additions easier.
Currently, when applying conversational AI, a method is sometimes used where multiple AIs with different roles are combined to perform organizational tasks.
In this case, by applying system orchestration technology, it becomes similarly easy to flexibly switch the roles and combinations of multiple AIs, making improvements and feature additions easier.
On the other hand, by applying virtual intelligence, it is possible to achieve intelligence orchestration instead of system orchestration.
This means using a single AI as the actual entity, while within that AI's processing, multiple virtual intelligences with different roles are combined to perform organizational tasks.
Combining multiple AIs through system orchestration requires system development.
In contrast, intelligence orchestration can be completed with just prompt instructions, eliminating the need for system development.
By providing instructions through a regular chat interface, organizational tasks can be achieved through intelligence orchestration.
This enables even more flexible and rapid improvements and feature additions than with system orchestration.
Ultimate Deliberation
The utility of intelligence orchestration is not limited to eliminating system development when enabling AI to perform organizational tasks.
By instructing AI to "think" using its intelligence orchestration skills, it is encouraged to deliberate.
This deliberation is not about combining multiple pieces of information, but about combining multiple perspectives.
Furthermore, by leveraging the characteristics of intelligence orchestration, it's possible to instruct the AI to repeatedly iterate on improving and adding features, or even scrapping and rebuilding, the roles and structures of multiple virtual intelligences.
This allows for trial and error in the method of deliberation itself, leading to ultimate deliberation.
Ultimate deliberation can reduce misunderstandings and errors, improving thinking accuracy, and broaden the scope of thought through multifaceted perspectives. Moreover, the chemical reaction of combining numerous pieces of information and perspectives can lead to new discoveries and the expression of creativity.
Conclusion
Virtual intelligence allows a single AI model to switch knowledge relevant to roles and tasks while deliberating, thereby enabling advanced organizational intellectual activities without the need for system orchestration.
Through organized deliberation, AI can analyze and accumulate failed experiences to update its own knowledge, and within the limits of input tokens for short-term memory, it can summarize knowledge and organize outdated information.
This will dramatically increase the instances where AI can genuinely serve as a human substitute for tasks in business settings.